| Abstract |
Biogenic coalbed methane (CBM) is a developing clean energy source. However, it is unclear how the mechanisms of bio-methane production with different sizes of coal. In this work, pulverized coal (PC) and lump coal (LC) were used for methane production by mixed fungi-methanogen microflora. The lower methane production from LC was observed. The aromatic carbon of coal was degraded slightly by 2.17% in LC, while 11.28% in PC. It is attributed to the proportion of lignin-degrading fungi, especially Penicillium, which was reached 67.57% in PC on the 7th day, higher than that of 11.38% in LC. The results suggested that the limited interaction area in LC led to microorganisms hardly utilize aromatics. It also led the accumulation of aromatic organics in the fermentation broth in PC. Increasing the reaction area of coal and facilitating the conversion of aromatic carbon are suggested means to increase methane production in situ. |
| Authors |
Lu Gao  , Xinbin Feng , Yixuan Zhang , Hongguang Guo , Xiaogang Mu , Zaixing Huang  , Michael A. Urynowicz
|
| Journal Info |
Oxford University Press | FEMS Microbiology Letters , vol: 371
|
| Publication Date |
1/1/2024 |
| ISSN |
0378-1097 |
Type |
article |
| Open Access |
closed
|
| DOI |
https://doi.org/10.1093/femsle/fnae037 |
| Keywords |
Microbial Methane Generation (Score: 0.713449) , Methane (Score: 0.555221) , Methane Adsorption (Score: 0.546741) , Coalbed Methane (Score: 0.510592)
|
